PCR-mediated Cloning and Mutagenesis
The isolation and cloning of a defined DNA sequence is a routine task in any Molecular Biology laboratory. There are a wide variety of methods for molecular cloning. One of critical steps is to create cohesive or sticky ends (complementary single stranded overhangs) in both DNA insert and cloning vector, allowing the joint of them in a desired directional manner. Depending on whether specific sequences or sites required for creating such sticky ends, cloning methods can be divided into two major categories, sequence-dependent and sequence-independent cloning. DNA can be assembled together with or without the use of a DNA ligase. Cloning methods can also be classified as ligase-based and ligase-free, or ligation-independent cloning (LIC).
Sequence-dependent Cloning
Sequence-dependent cloning often relies on restriction digestion and ligation, or site-specific recombination. A common strategy involves PCR amplification of a DNA fragment of interest, followed by insertion into a suitable cloning vector. The latter can be achieved in different ways, the most common of which exploits unique restriction sites present in both vector and insert to generate sticky ends, and a ligase to covalently link them prior to transformation into a bacterial host for propagation. This can also be achieved by several LIC methods that utilize an enzyme, such as recombinase and topoisomerase, or enzymes cocktails to yield correct recombinant DNA constructs using site-specific recombination. All these methods are limited by the choice of unique sequences or sites, and by the use of specialized reagents or kits.
Sequence-independent Cloning
Sequence-independent cloning is based on homologous recombination between vector and insert, but does not require specific sequences. It is often referred to as “seamless” cloning because it can avoid introducing additional (or artificial) sequences at the insertion-boundary after cloning. There are increasing demands, largely from Synthetic Biology and Genetic Engineering, for more reliable, efficient and convenient technologies for sequence-independent and ligation-independent cloning (SLIC). High fidelity PCR allows not only for the amplification of a specific DNA sequence, but for the assembly or circularization of multiple DNA fragments containing overlapping sequences at ends. Therefore sequence-independent cloning can be achieved solely by PCR using a single, high fidelity DNA polymerase. G&P HiFi™ is ideally suited for this application, providing an all-in-one solution for sequence-independent cloning.
PCR-mediated Cloning
PCR enables numerous approaches to gene cloning, including TA cloning, LIC, recombinase-dependent cloning, and PCR-mediated cloning. The use of any PCR cloning method is critically based on its reliability, efficiency and simplicity under optimal conditions. Furthermore, the methods should be easy to monitor and optimize. For example, TA cloning and LIC require end modifications that cannot be easily monitored.
Among all the PCR-mediated cloning methods, overlap extension PCR cloning is a simple and reliable way to create recombinant constructs. It can be accomplished essentially by two rounds of high fidelity PCR:
The single, linear vector-insert fusion can be circularized using a ligase prior to transformation. In contrast, the circular or multimeric PCR product can be directly used for transformation as the bacterial host will repair nicks or re-circularize the multimer of repeated vector:insert fusions (see the graphs below).
Several variants of overlap extension PCR-based cloning have been described. In general they all use the PCR amplified insert with overlapping sequences to the vector as a mega-primer in the next round high fidelity PCR. However, they differ in template types and conditions for overlap extension PCR.
Both methods allow one or multiple (up to 3) inserts with overlapping regions to be assembled into a vector at any location. However they requires relatively long overlapping sequences (30-50 bp). G&P HiFi™ DNA polymerase is ideally suited for overlap extension PCR cloning due to its superior fidelity and processivity as well as the factor that it does not possess strand displacement activity when using the vector as template. It requires much shorter overlapping sequences (usually 15-20 bp only). Overall, the overlap PCR extension cloning method is easy to monitor and optimize and it does not require restriction endonucleases or DNA ligase. For these reasons, it can be used as a simple and efficient means to create recombinant constructs for the routine study of gene function.
PCR-mediated Mutagenesis
Site-directed mutagenesis is frequently used in protein engineering and structure-function relationship studies. The most common method employs two complementary long oligonucleotides to introduce point mutations (additions, deletions or substitutions) at specific sites of a DNA sequence that has been cloned into a vector. After annealing of both oligonucleotides, which contain mismatched nucleotides at the mutation site, the entire vector is amplified with a DNA polymerase. It produces a nicked, circular DNA, which can then be transformed into a suitable bacterial host for nick repair and multiplication. Site-directed mutagenesis requires the use of a high fidelity DNA polymerase. G&P HiFi™ DNA polymerase is ideally suitable for this due to its high fidelity and robust performance in PCR long amplicons (up to 15 kb). G&P HiFi™ produces high yields of the mutant plasmid with minimal amounts of enzyme, and eliminates spurious mutations introduced during PCR.
References:
1. Appl. Environ. Microbiol doi:10.1128 (2012)
2. Curr Issues Mol Biol 12: 11-16, 2009
3. Biotechniques 48: 463-465, 2010
4. BMC Biotechnology 11: 92-96, 2011
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